Long only 1/n portfolio#

import pandas as pd
pd.options.plotting.backend = "plotly"

import yfinance as yf

from cvx.simulator.builder import builder
from cvx.simulator.grid import resample_index
data = yf.download(tickers = "SPY AAPL GOOG MSFT",  # list of tickers
                   period = "10y",                   # time period
                   interval = "1d",                 # trading interval
                   prepost = False,                 # download pre/post market hours data?
                   repair = True)                   # repair obvious price errors e.g. 100x?
[                       0%                       ]
[**********************50%                       ]  2 of 4 completed
[**********************75%***********            ]  3 of 4 completed
[*********************100%***********************]  4 of 4 completed

prices = data["Adj Close"]
capital = 1e6
b = builder(prices=prices, initial_cash=capital)

for time, state in b:
    # each day we invest a quarter of the capital in the assets
    b[time[-1]] = 0.25 * state.nav / state.prices
portfolio = b.build()
portfolio.profit.cumsum().plot()
portfolio.nav.plot()

Rebalancing#

Usually we would not execute on a daily basis but rather rebalance every week, month or quarter. There are two approaches to deal with this problem in cvxsimulator.

  • Resample the existing daily portfolio (helpful to see effect of your hesitated trading)

  • Trade only on days that are within a predefined grid (most flexible if you have a rather irregular grid)

Resample an existing portfolio#

portfolio_resampled = portfolio.resample(rule="M")
frame = pd.DataFrame({"original": portfolio.nav, "monthly": portfolio_resampled.nav})
frame
original monthly
Date
2013-07-15 1.000000e+06 1.000000e+06
2013-07-16 9.999955e+05 9.999955e+05
2013-07-17 9.967597e+05 9.967492e+05
2013-07-18 9.947378e+05 9.947639e+05
2013-07-19 9.590634e+05 9.594965e+05
... ... ...
2023-07-06 7.847143e+06 7.832798e+06
2023-07-07 7.794536e+06 7.780014e+06
2023-07-10 7.694129e+06 7.679333e+06
2023-07-11 7.718509e+06 7.703690e+06
2023-07-12 7.810137e+06 7.795181e+06

2516 rows × 2 columns

print(portfolio_resampled.stocks)
                    AAPL          GOOG         MSFT          SPY
Date                                                            
2013-07-15  18862.734220  10854.970547  8294.343909  1786.199234
2013-07-16  18862.734220  10854.970547  8294.343909  1786.199234
2013-07-17  18862.734220  10854.970547  8294.343909  1786.199234
2013-07-18  18862.734220  10854.970547  8294.343909  1786.199234
2013-07-19  18862.734220  10854.970547  8294.343909  1786.199234
...                  ...           ...          ...          ...
2023-07-06  10192.445911  16271.053817  5803.835217  4420.194621
2023-07-07  10192.445911  16271.053817  5803.835217  4420.194621
2023-07-10  10192.445911  16271.053817  5803.835217  4420.194621
2023-07-11  10192.445911  16271.053817  5803.835217  4420.194621
2023-07-12  10192.445911  16271.053817  5803.835217  4420.194621

[2516 rows x 4 columns]
# almost hard to see that difference between the original and resampled portfolio
frame.plot()
# number of shares traded
portfolio_resampled.trades_stocks.iloc[1:].plot()

Trade only days in predefined grid#

b = builder(prices=prices, initial_cash=capital)

# define a grid
grid = resample_index(prices.index, rule="M")

for time, state in b:
    # each day we invest a quarter of the capital in the assets
    if time[-1] in grid:
        b[time[-1]] = 0.25 * state.nav / state.prices
    else:
        # forward fill an existing position
        b[time[-1]] = b[time[-2]]
        
portfolio = b.build()
portfolio.nav.plot()
# Trading only once a month can lead to days where 150k had to be reallocated
portfolio.turnover.iloc[1:].plot()

Why not resampling the prices?#

I don’t believe in bringing the prices to a monthly grid. This would render it hard to construct signals given the sparse grid. We stay on a daily grid and trade once a month.